CCNA 3 v3.0 Module 3 EIGRP

1. CCNA 3 v3.0 Module 3 EIGRP

2. Purpose of This PowerPoint • This PowerPoint primarily consists of the Target Indicators (TIs) of this module in CCNA version 3.0. • It was created to give instructors a PowerPoint to take and modify as their own. • This PowerPoint is: • NOT a study guide for the module final assessment. • NOT a study guide for the CCNA certification exam. • Please report any mistakes you find in this PowerPoint by using the Academy Connection Help link.

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4. Objectives • EIGRP concepts • EIGRP configuration • Troubleshooting Routing protocols

5. Comparing EIGRP with IGRP • Comparisons between EIGRP and IGRP fall into the following major categories: • Compatibility mode • Metric calculation • Hop count • Automatic protocol redistribution • Route tagging

6. Using EIGRP with IGRP

7. EIGRP Concepts • Every EIGRP router maintains a topology table for each configured network protocol. • All learned routes to a destination are maintained in the topology table.

8. EIGRP Successors and Feasible Successors

9. EIGRP Design Features

10. EIGRP Technologies • Neighbor discovery and recovery • Reliable Transport Protocol • DUAL finite-state machine algorithm • Protocol-dependent modules • By forming adjacencies, EIGRP routers: • Dynamically learn of new routes that join their network • Identify routers that become either unreachable or inoperable • Rediscover routers that had previously been unreachable

11. Data Structure The five EIGRP packet types are as follows: • Hello (used to discover, verify, and rediscover neighbor routers) • Acknowledgment • Update • Query • Reply

12. Default Hello Intervals and Hold Times for EIGRP

13. Feasible Successor Route Selection Rules

14. Configuring EIGRP

15. EIGRP Automatically Summarizes Based on Class

16. Manual Summarization with EIGRP

17. Verifying EIGRP

18. EIGRP debug Commands

19. Building Neighbor Tables

20. Discover Routes

21. Select Routes • If a link goes down, DUAL looks for an alternative route path, or feasible successor, in the topology table. • If a feasible successor is not found, the route is flagged as Active, or unusable at present. • Query packets are sent to neighboring routers requesting topology information. • DUAL uses this information to recalculate successor and feasible successor routes to the destination.

22. Troubleshooting Process • Analyze the network failure, make a clear problem statement. • Gather the facts needed to help isolate possible causes. • Consider possible problems based on the facts that have been gathered. • Create an action plan based on the remaining potential problems. • Implement the action plan, performing each step carefully while testing to see whether the symptom disappears. • Analyze the results to determine whether the problem has been resolved. If it has, the process is complete. • If the problem has not been resolved, create an action plan based on the next most likely problem in the list. Return to Step 4, change one variable at a time, and repeat the process until the problem is solved. • Once the actual cause of the problem is identified, try to solve it.

23. Troubleshooting RIP Configuration • Layer 1 or Layer 2 connectivity issues exist. • VLSM subnetting is configured. VLSM subnetting cannot be used with RIPv1 • Mismatched RIPv1 and RIPv2 routing configurations exist. • Network statements are missing or incorrectly assigned. • The outgoing interface is down. • The advertised network interface is down.

24. Troubleshooting IGRP Configuration

25. Troubleshooting EIGRP Configuration

26. Troubleshooting EIGRP Configuration

27. Troubleshooting OSPF Configuration